Because we now have a dedicated queue per thread, we can simply add our
invoke item to the queue and then flush all the queues when we are
running in the thread of the loop.
This simplifies some things and removes potential out-of-order messages
that got queued while flushing.
Keep a thread local queue. This makes it possible for multiple threads
to write to the ringbuffer.
There is a lock to protect the list of queues. It can only be contended
when new queues are created in the threads but this can be done at
thread startup.
Fixes#3983
Make an internal queue object that implements the invoke queue.
Because we can not do invokes concurrently from different threads, this
is required to make per-thread invoke queues later.
Debug and trace log messages are often written based on the stderr
logging, where code location is always visible.
journalctl does not show the code location without extra tricks,
which makes user-submitted debug logs from journal more cryptic.
Make journal log more similar to stderr logs by prepending the code
location and log level in the log message when the log topic
level is >= DEBUG.
When timer is not using monotonic clock, apply clock offset to translate
the time values to the monotonic clock when putting them to spa_io_clock
nsec fields.
Get appropriate clock offset by smoothed filtering. The parameters here
keep the offset jitter < 10ns or so.
As monotonic/boottime/realtime all contain adjtime(), there generally is
no drift in the offset here, so just averaging should be fine.
Also fix using wrong timer clock when freewheeling.
Propagate the error if spa_system_eventfd_create() fails. Also copy
errno before calling spa_log_debug() in spa_system_eventfd_create() to
make sure it is not overwritten.
When the invoke ringbuffer is full, sleep a little and try again.
Add an option to set the retty timeout, setting this to 0 restores
the old behaviour of returning -EPIPE.
Most callers don't check the return values and might assume the invoke
call is queued or executed, which could cause crashes or leaks.
When the queue overruns, it's better to log a warning and hope that the
problem is resolved soon. We might abort or return the error to the
caller later if we want to break the retry loop.
See !1887
Move some of the tracking code for the DLL to where it is used.
Add resync.ms (default 10) option at which we give up rate adjusting
and instead do a hard resync. This results in a jump in the position
of the graph clock.
When freewheeling we will immediately schedule a new graph cycle when we
get a process call because the graph completed.
When the process call is not done, because of some xrun or
because some node was removed that causes the graph to fail completion,
The next cycle will happen after a timeout.
This timeout was calculated as the ideal wakeup time (after a quantum of
time) and would accumulate for each timeout. The result is that the
timeout ended up far in the future and would stall the freewheel driver
for a long time.
Fix this by always setting the next timeout to wakeup time + freewheel.timeout
seconds. Also add a config property for the timeout (10 seconds, like
jack2 by default).
Make sure the log level on the chained logger is the same as ours.
Makes PIPEWIRE_DEBUG=3 make run print debug again.
This used to work because the log level was parsed and set before the
loggers were created and chained, and so they all got the same level.
Now that the level can be changed with metadata at runtime, we can't
really update all past loggers so let the journal logger copy the
level itself.
When we don't have the thread id yet, don't add the pollfds yet
but wait until we do our first wait operation.
Use flags for eventfd. We can use this to communicate between all kinds
of threads with read/write.
Use evl_init() in the init function, don't attach the main loop, just
the thread that dos the first poll.
The user may not know which is the active PHC index of a bonded
interface. We can now specify the interface name instead of a device
as the clock.interface property and query the interface about the
active PHC index.
Make sure that the position only advances in the running state.
When we are not following a clock we can simply increment the position
with the duration every time we run.
If we are following a clock. Take the elapsed time of the clock into
account when aligning to the position.
Fixes#3189
Add a _fast callback function that skips the version and method check.
We can use this in places where performance is critical when we do the
check out of the critical loops.
Make all system methods _fast calls. We expect them to exist and have
the right version. If we add new versions we can make them slow.
Add check for running the the loop context and thread.
Add checks in filter and stream to avoid doing things when not run from
the context main-loop because this can crash things when doing IPC from
concurrent threads.
